compiler-rt/lib/orc/executor_address.h - llvm-project - Git at Google

 //===------ ExecutorAddress.h - Executing process address -------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // Represents an address in the executing program.
 //
 // This file was derived from
 // llvm/include/llvm/ExecutionEngine/Orc/Shared/ExecutorAddress.h.
 //
 //===----------------------------------------------------------------------===//

 #ifndef ORC_RT_EXECUTOR_ADDRESS_H
 #define ORC_RT_EXECUTOR_ADDRESS_H

 #include "adt.h"
 #include "simple_packed_serialization.h"

 #include <cassert>
 #include <type_traits>

 namespace __orc_rt {

 /// Represents the difference between two addresses in the executor process.
 class ExecutorAddrDiff {
 public:
   ExecutorAddrDiff() = default;
   explicit ExecutorAddrDiff(uint64_t Value) : Value(Value) {}

   uint64_t getValue() const { return Value; }

 private:
   int64_t Value = 0;
 };

 /// Represents an address in the executor process.
 class ExecutorAddr {
 public:
   ExecutorAddr() = default;
   explicit ExecutorAddr(uint64_t Addr) : Addr(Addr) {}

   /// Create an ExecutorAddr from the given pointer.
   /// Warning: This should only be used when JITing in-process.
   template <typename T> static ExecutorAddr fromPtr(T *Value) {
     return ExecutorAddr(
         static_cast<uint64_t>(reinterpret_cast<uintptr_t>(Value)));
   }

   /// Cast this ExecutorAddr to a pointer of the given type.
   /// Warning: This should only be esude when JITing in-process.
   template <typename T> T toPtr() const {
     static_assert(std::is_pointer<T>::value, "T must be a pointer type");
     uintptr_t IntPtr = static_cast<uintptr_t>(Addr);
     assert(IntPtr == Addr &&
            "JITTargetAddress value out of range for uintptr_t");
     return reinterpret_cast<T>(IntPtr);
   }

   uint64_t getValue() const { return Addr; }
   void setValue(uint64_t Addr) { this->Addr = Addr; }
   bool isNull() const { return Addr == 0; }

   explicit operator bool() const { return Addr != 0; }

   friend bool operator==(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
     return LHS.Addr == RHS.Addr;
   }

   friend bool operator!=(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
     return LHS.Addr != RHS.Addr;
   }

   friend bool operator<(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
     return LHS.Addr < RHS.Addr;
   }

   friend bool operator<=(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
     return LHS.Addr <= RHS.Addr;
   }

   friend bool operator>(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
     return LHS.Addr > RHS.Addr;
   }

   friend bool operator>=(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
     return LHS.Addr >= RHS.Addr;
   }

   ExecutorAddr &operator++() {
     ++Addr;
     return *this;
   }
   ExecutorAddr &operator--() {
     --Addr;
     return *this;
   }
   ExecutorAddr operator++(int) { return ExecutorAddr(Addr++); }
   ExecutorAddr operator--(int) { return ExecutorAddr(Addr++); }

   ExecutorAddr &operator+=(const ExecutorAddrDiff Delta) {
     Addr += Delta.getValue();
     return *this;
   }

   ExecutorAddr &operator-=(const ExecutorAddrDiff Delta) {
     Addr -= Delta.getValue();
     return *this;
   }

 private:
   uint64_t Addr = 0;
 };

 /// Subtracting two addresses yields an offset.
 inline ExecutorAddrDiff operator-(const ExecutorAddr &LHS,
                                   const ExecutorAddr &RHS) {
   return ExecutorAddrDiff(LHS.getValue() - RHS.getValue());
 }

 /// Adding an offset and an address yields an address.
 inline ExecutorAddr operator+(const ExecutorAddr &LHS,
                               const ExecutorAddrDiff &RHS) {
   return ExecutorAddr(LHS.getValue() + RHS.getValue());
 }

 /// Adding an address and an offset yields an address.
 inline ExecutorAddr operator+(const ExecutorAddrDiff &LHS,
                               const ExecutorAddr &RHS) {
   return ExecutorAddr(LHS.getValue() + RHS.getValue());
 }

 /// Represents an address range in the exceutor process.
 struct ExecutorAddrRange {
   ExecutorAddrRange() = default;
   ExecutorAddrRange(ExecutorAddr Start, ExecutorAddr End)
       : Start(Start), End(End) {}
   ExecutorAddrRange(ExecutorAddr Start, ExecutorAddrDiff Size)
       : Start(Start), End(Start + Size) {}

   bool empty() const { return Start == End; }
   ExecutorAddrDiff size() const { return End - Start; }

   friend bool operator==(const ExecutorAddrRange &LHS,
                          const ExecutorAddrRange &RHS) {
     return LHS.Start == RHS.Start && LHS.End == RHS.End;
   }
   friend bool operator!=(const ExecutorAddrRange &LHS,
                          const ExecutorAddrRange &RHS) {
     return !(LHS == RHS);
   }
   bool contains(ExecutorAddr Addr) const { return Start <= Addr && Addr < End; }
   bool overlaps(const ExecutorAddrRange &Other) {
     return !(Other.End <= Start || End <= Other.Start);
   }

   template <typename T> span<T> toSpan() const {
     assert(size().getValue() % sizeof(T) == 0 &&
            "AddressRange is not a multiple of sizeof(T)");
     return span<T>(Start.toPtr<T *>(), size().getValue() / sizeof(T));
   }

   ExecutorAddr Start;
   ExecutorAddr End;
 };

 /// SPS serializatior for ExecutorAddr.
 template <> class SPSSerializationTraits<SPSExecutorAddr, ExecutorAddr> {
 public:
   static size_t size(const ExecutorAddr &EA) {
     return SPSArgList<uint64_t>::size(EA.getValue());
   }

   static bool serialize(SPSOutputBuffer &BOB, const ExecutorAddr &EA) {
     return SPSArgList<uint64_t>::serialize(BOB, EA.getValue());
   }

   static bool deserialize(SPSInputBuffer &BIB, ExecutorAddr &EA) {
     uint64_t Tmp;
     if (!SPSArgList<uint64_t>::deserialize(BIB, Tmp))
       return false;
     EA = ExecutorAddr(Tmp);
     return true;
   }
 };

 using SPSExecutorAddrRange = SPSTuple<SPSExecutorAddr, SPSExecutorAddr>;

 /// Serialization traits for address ranges.
 template <>
 class SPSSerializationTraits<SPSExecutorAddrRange, ExecutorAddrRange> {
 public:
   static size_t size(const ExecutorAddrRange &Value) {
     return SPSArgList<SPSExecutorAddr, SPSExecutorAddr>::size(Value.Start,
                                                               Value.End);
   }

   static bool serialize(SPSOutputBuffer &BOB, const ExecutorAddrRange &Value) {
     return SPSArgList<SPSExecutorAddr, SPSExecutorAddr>::serialize(
         BOB, Value.Start, Value.End);
   }

   static bool deserialize(SPSInputBuffer &BIB, ExecutorAddrRange &Value) {
     return SPSArgList<SPSExecutorAddr, SPSExecutorAddr>::deserialize(
         BIB, Value.Start, Value.End);
   }
 };

 using SPSExecutorAddrRangeSequence = SPSSequence<SPSExecutorAddrRange>;

 } // End namespace __orc_rt

 #endif // ORC_RT_EXECUTOR_ADDRESS_H
	//===------ ExecutorAddress.h - Executing process address -------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// Represents an address in the executing program.
	//
	// This file was derived from
	// llvm/include/llvm/ExecutionEngine/Orc/Shared/ExecutorAddress.h.
	//
	//===----------------------------------------------------------------------===//

	#ifndef ORC_RT_EXECUTOR_ADDRESS_H
	#define ORC_RT_EXECUTOR_ADDRESS_H

	#include "adt.h"
	#include "simple_packed_serialization.h"

	#include <cassert>
	#include <type_traits>

	namespace __orc_rt {

	/// Represents the difference between two addresses in the executor process.
	class ExecutorAddrDiff {
	public:
	ExecutorAddrDiff() = default;
	explicit ExecutorAddrDiff(uint64_t Value) : Value(Value) {}

	uint64_t getValue() const { return Value; }

	private:
	int64_t Value = 0;
	};

	/// Represents an address in the executor process.
	class ExecutorAddr {
	public:
	ExecutorAddr() = default;
	explicit ExecutorAddr(uint64_t Addr) : Addr(Addr) {}

	/// Create an ExecutorAddr from the given pointer.
	/// Warning: This should only be used when JITing in-process.
	template <typename T> static ExecutorAddr fromPtr(T *Value) {
	return ExecutorAddr(
	static_cast<uint64_t>(reinterpret_cast<uintptr_t>(Value)));
	}

	/// Cast this ExecutorAddr to a pointer of the given type.
	/// Warning: This should only be esude when JITing in-process.
	template <typename T> T toPtr() const {
	static_assert(std::is_pointer<T>::value, "T must be a pointer type");
	uintptr_t IntPtr = static_cast<uintptr_t>(Addr);
	assert(IntPtr == Addr &&
	"JITTargetAddress value out of range for uintptr_t");
	return reinterpret_cast<T>(IntPtr);
	}

	uint64_t getValue() const { return Addr; }
	void setValue(uint64_t Addr) { this->Addr = Addr; }
	bool isNull() const { return Addr == 0; }

	explicit operator bool() const { return Addr != 0; }

	friend bool operator==(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
	return LHS.Addr == RHS.Addr;
	}

	friend bool operator!=(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
	return LHS.Addr != RHS.Addr;
	}

	friend bool operator<(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
	return LHS.Addr < RHS.Addr;
	}

	friend bool operator<=(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
	return LHS.Addr <= RHS.Addr;
	}

	friend bool operator>(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
	return LHS.Addr > RHS.Addr;
	}

	friend bool operator>=(const ExecutorAddr &LHS, const ExecutorAddr &RHS) {
	return LHS.Addr >= RHS.Addr;
	}

	ExecutorAddr &operator++() {
	++Addr;
	return *this;
	}
	ExecutorAddr &operator--() {
	--Addr;
	return *this;
	}
	ExecutorAddr operator++(int) { return ExecutorAddr(Addr++); }
	ExecutorAddr operator--(int) { return ExecutorAddr(Addr++); }

	ExecutorAddr &operator+=(const ExecutorAddrDiff Delta) {
	Addr += Delta.getValue();
	return *this;
	}

	ExecutorAddr &operator-=(const ExecutorAddrDiff Delta) {
	Addr -= Delta.getValue();
	return *this;
	}

	private:
	uint64_t Addr = 0;
	};

	/// Subtracting two addresses yields an offset.
	inline ExecutorAddrDiff operator-(const ExecutorAddr &LHS,
	const ExecutorAddr &RHS) {
	return ExecutorAddrDiff(LHS.getValue() - RHS.getValue());
	}

	/// Adding an offset and an address yields an address.
	inline ExecutorAddr operator+(const ExecutorAddr &LHS,
	const ExecutorAddrDiff &RHS) {
	return ExecutorAddr(LHS.getValue() + RHS.getValue());
	}

	/// Adding an address and an offset yields an address.
	inline ExecutorAddr operator+(const ExecutorAddrDiff &LHS,
	const ExecutorAddr &RHS) {
	return ExecutorAddr(LHS.getValue() + RHS.getValue());
	}

	/// Represents an address range in the exceutor process.
	struct ExecutorAddrRange {
	ExecutorAddrRange() = default;
	ExecutorAddrRange(ExecutorAddr Start, ExecutorAddr End)
	: Start(Start), End(End) {}
	ExecutorAddrRange(ExecutorAddr Start, ExecutorAddrDiff Size)
	: Start(Start), End(Start + Size) {}

	bool empty() const { return Start == End; }
	ExecutorAddrDiff size() const { return End - Start; }

	friend bool operator==(const ExecutorAddrRange &LHS,
	const ExecutorAddrRange &RHS) {
	return LHS.Start == RHS.Start && LHS.End == RHS.End;
	}
	friend bool operator!=(const ExecutorAddrRange &LHS,
	const ExecutorAddrRange &RHS) {
	return !(LHS == RHS);
	}
	bool contains(ExecutorAddr Addr) const { return Start <= Addr && Addr < End; }
	bool overlaps(const ExecutorAddrRange &Other) {
	return !(Other.End <= Start \|\| End <= Other.Start);
	}

	template <typename T> span<T> toSpan() const {
	assert(size().getValue() % sizeof(T) == 0 &&
	"AddressRange is not a multiple of sizeof(T)");
	return span<T>(Start.toPtr<T *>(), size().getValue() / sizeof(T));
	}

	ExecutorAddr Start;
	ExecutorAddr End;
	};

	/// SPS serializatior for ExecutorAddr.
	template <> class SPSSerializationTraits<SPSExecutorAddr, ExecutorAddr> {
	public:
	static size_t size(const ExecutorAddr &EA) {
	return SPSArgList<uint64_t>::size(EA.getValue());
	}

	static bool serialize(SPSOutputBuffer &BOB, const ExecutorAddr &EA) {
	return SPSArgList<uint64_t>::serialize(BOB, EA.getValue());
	}

	static bool deserialize(SPSInputBuffer &BIB, ExecutorAddr &EA) {
	uint64_t Tmp;
	if (!SPSArgList<uint64_t>::deserialize(BIB, Tmp))
	return false;
	EA = ExecutorAddr(Tmp);
	return true;
	}
	};

	using SPSExecutorAddrRange = SPSTuple<SPSExecutorAddr, SPSExecutorAddr>;

	/// Serialization traits for address ranges.
	template <>
	class SPSSerializationTraits<SPSExecutorAddrRange, ExecutorAddrRange> {
	public:
	static size_t size(const ExecutorAddrRange &Value) {
	return SPSArgList<SPSExecutorAddr, SPSExecutorAddr>::size(Value.Start,
	Value.End);
	}

	static bool serialize(SPSOutputBuffer &BOB, const ExecutorAddrRange &Value) {
	return SPSArgList<SPSExecutorAddr, SPSExecutorAddr>::serialize(
	BOB, Value.Start, Value.End);
	}

	static bool deserialize(SPSInputBuffer &BIB, ExecutorAddrRange &Value) {
	return SPSArgList<SPSExecutorAddr, SPSExecutorAddr>::deserialize(
	BIB, Value.Start, Value.End);
	}
	};

	using SPSExecutorAddrRangeSequence = SPSSequence<SPSExecutorAddrRange>;

	} // End namespace __orc_rt

	#endif // ORC_RT_EXECUTOR_ADDRESS_H